2015
DOI: 10.1016/j.quascirev.2015.05.024
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Causal links between Nile floods and eastern Mediterranean sapropel formation during the past 125 kyr confirmed by OSL and radiocarbon dating of Blue and White Nile sediments

Abstract: a b s t r a c tIt has long been hypothesised that beds of highly organic mud or sapropels seen in marine sediment cores retrieved from the floor of the eastern Mediterranean accumulated during times of high Nile fluvial discharge. Our recent fieldwork in the valleys of the Blue Nile, the White Nile and the main Nile has for the first time revealed a sequence of extreme flood episodes synchronous with sapropel units S5 (124 kyr), S4 (102 kyr), S3 (81 kyr), S2 (55 kyr) and S1 (13.5e6.5 kyr). There are more weakl… Show more

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Cited by 81 publications
(38 citation statements)
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References 69 publications
(114 reference statements)
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“…Several models have been proposed, including a highly braided river with a much‐reduced discharge, a suspended‐load river, and that sand dunes dammed the Nile at specific places during the LGM, creating large lakes . Further south, in Sudan, correlation between Nile flows and sapropel S2 suggests a time of high water influx to the main Nile at ~55 ka, while during the LGM, both the White and the Blue Nile exhibit very low water discharge and high seasonality . In addition, oases in the Eastern Sahara have yielded evidence for habitability in the late Pleistocene, building a more complex picture than an “empty Desert” at that time …”
Section: Discussion Topicsmentioning
confidence: 99%
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“…Several models have been proposed, including a highly braided river with a much‐reduced discharge, a suspended‐load river, and that sand dunes dammed the Nile at specific places during the LGM, creating large lakes . Further south, in Sudan, correlation between Nile flows and sapropel S2 suggests a time of high water influx to the main Nile at ~55 ka, while during the LGM, both the White and the Blue Nile exhibit very low water discharge and high seasonality . In addition, oases in the Eastern Sahara have yielded evidence for habitability in the late Pleistocene, building a more complex picture than an “empty Desert” at that time …”
Section: Discussion Topicsmentioning
confidence: 99%
“…4 Further south, in Sudan, correlation between Nile flows and sapropel S2 suggests a time of high water influx to the main Nile at~55 ka, while during the LGM, both the White and the Blue Nile exhibit very low water discharge and high seasonality. 5 In addition, oases in the Eastern Sahara have yielded evidence for habitability in the late Pleistocene, building a more complex picture than an "empty Desert" at that time. 6 [8][9][10][11] North of the first cataract, few sites are known from the late MP and early UP, the majority of which are raw material procurement sites.…”
Section: Local and Regional Environmental Responses To Climatic Chamentioning
confidence: 99%
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“…The contrast in the upper parts of the sediments suggests that the two basins had already separated when these sediments were deposited and, as the western basin was smaller, it was more prone to desiccation and salination. In addition, the biodiversity and reddened sediment may reflect a contribution from the Nile via the Toshka overspill (Haynes, 1980; Haynes, Mehringer, & Zaghloul, 1979) during periods of higher Nile which are observed in the Northern Dongola Reach as persisting until 5.5 ky (Williams et al, 2015). Observations of the Khargan topography suggest that the two water‐bodies are separated when lake levels fall below around 140 m asl.…”
Section: Khargan Holocene Sedimentsmentioning
confidence: 99%
“…5000–2500 B.C.E. (Castañeda et al., ; deMenocal et al., ; Gasse, ; Hennekam, Jilbert, Schnetger, and de Lange, ; Krom, Stanley, Cliff, and Woodward, ; Woodward, Macklin et al, ). While the modern Nile system with its low‐sinuosity channel and mid‐channel bars is typical for the middle and late Holocene (Butzer, ; Said, ), there was a different Nile system with a more violent discharge regime, a braided channel pattern, and coarser deposits (with large sediment inputs from wadi systems; Woodward, Macklin et al, ) prior to this time.…”
Section: Geogenetic Interpretationmentioning
confidence: 99%